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Moon landing
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With all the theories about the moon landing being made up why cant they take photos of the stuff they was meant to have left up there like the moon buggy to proof it?
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For more on marking an answer as the "Best Answer", please visit our FAQ.You will need a telescope at least a hundred times more powerful than this to see anything that small
Kind of but not a photo.
Three of the Apollo missions left laser reflectors on the moon like this:
http://en.wikipedia.org/wiki/Lunar_laser_rangi ng_experiment
Since then hundreds of scientists from all countries have used these to bounce lasers off of the moon and calculate it's distance to within centimeters.
This just would not be possible without the reflectors.
I have pointed this out on a few occasions to conspiracy theorists - unsurprisingly they are not persuaded.
Three of the Apollo missions left laser reflectors on the moon like this:
http://en.wikipedia.org/wiki/Lunar_laser_rangi ng_experiment
Since then hundreds of scientists from all countries have used these to bounce lasers off of the moon and calculate it's distance to within centimeters.
This just would not be possible without the reflectors.
I have pointed this out on a few occasions to conspiracy theorists - unsurprisingly they are not persuaded.
Hmmm... no conspiracy theorists have challenged the veracity of those who claim to be able to shine a beam of light at a 1 metre x � metre bike reflector ~385 million metres away (I think that gives a target size measured in millionths of an arcsecond) moving at 0.5 arcseconds per second.
They aren't trying hard enough ;-)
They aren't trying hard enough ;-)
Traditional earthbound telescopes have a resolution of around 1.0 arcseconds due to atmospheric disturbance. Hubble's, being in space, is around ten times better at just under 0.1 arcseconds.
By using a system of interferometry combined with computer-controlled flexible mirrors the new European Southern Observatory's VLT (Very Large Telescope) will be comparable to Hubble, with a resolution of around 0.07 arcseconds.
Better still is Sydney University's ground-based Stellar Interferometer which will attain an incredibly fine resolution of 70 micro arcseconds. Wow! That's the width of a human hair at 100 km!
But alas, that's still not good enough to photograph the moon buggy. (I'll let someone else do the math). ;-)
By using a system of interferometry combined with computer-controlled flexible mirrors the new European Southern Observatory's VLT (Very Large Telescope) will be comparable to Hubble, with a resolution of around 0.07 arcseconds.
Better still is Sydney University's ground-based Stellar Interferometer which will attain an incredibly fine resolution of 70 micro arcseconds. Wow! That's the width of a human hair at 100 km!
But alas, that's still not good enough to photograph the moon buggy. (I'll let someone else do the math). ;-)
I'm with you Mr Bungle - If a satelite has a camera on it to take a photo of earth one way like Google earth/Microsoft Realtime - why cant it be done the other way - how come we dont have camera lenses strong enough to see things on the moon. We can see detailed craters from earth with television camera lenses as the camera men often do when nothing is happening at half time on the football or something. There must be something strong enough to take close ups of the moon.
Because there is a fundamental relationship between the size of a lens and the smallest object it can resolve
http://en.wikipedia.org/wiki/Angular_resolutio n
By my reckoning you'd need a lens nearly 5KM in diameter
http://en.wikipedia.org/wiki/Angular_resolutio n
By my reckoning you'd need a lens nearly 5KM in diameter
Satellite imagery of the Earth is taken at an altitude of around 200 miles. The Moon is more than 1000 times further away.
The clearest satellite/aerial imagery used by Google Earth is at around 0.6 metre resolution.
The Hubble Telescope (as an example of the strongest telescopes which exist) has an optical resolution of .085 arcseconds for visible light which gives a resolution at the Moon's surface of about 150 metres. You need better than 50 metres resolution to be able to detect a town.
The clearest satellite/aerial imagery used by Google Earth is at around 0.6 metre resolution.
The Hubble Telescope (as an example of the strongest telescopes which exist) has an optical resolution of .085 arcseconds for visible light which gives a resolution at the Moon's surface of about 150 metres. You need better than 50 metres resolution to be able to detect a town.